Transcript File system

COS/PSA 413
Day 9
Agenda
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Questions?
Assignment 2 Due
Assignment 3 Due
Assignment 4 posted
Quiz 1 on September 30
– Chaps 1-5, Open book, Open notes
– 20 M/C and 5 essays
• Lab 2 write-ups Not corrected yet
• Discussion On Working with Windows and DOS
Guide to Computer Forensics
and Investigations
Third Edition
Chapter 6
Working with Windows and DOS
Systems
Objectives
• Explain the purpose and structure of file systems
• Describe Microsoft file structures
• Explain the structure of New Technology File
System (NTFS) disks
• List some options for decrypting drives encrypted
with whole disk encryption
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Objectives (continued)
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Explain how the Windows Registry works
Describe Microsoft startup tasks
Describe MS-DOS startup tasks
Explain the purpose of a virtual machine
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Understanding File Systems
• File system
– Gives OS a road map to data on a disk
• Type of file system an OS uses determines how
data is stored on the disk
• A file system is usually directly related to an OS
• When you need to access a suspect’s computer to
acquire or inspect data
– You should be familiar with the computer’s platform
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Understanding the Boot Sequence
• Complementary Metal Oxide Semiconductor
(CMOS)
– Computer stores system configuration and date and
time information in the CMOS
• Even When power to the system is off
• Basic Input/Output System (BIOS)
– Contains programs that perform input and output at
the hardware level
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Understanding the Boot Sequence
(continued)
• Bootstrap process
– Contained in ROM, tells the computer how to
proceed
– Displays the key or keys you press to open the
CMOS setup screen
• CMOS should be modified to boot from a forensic
floppy disk or CD
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Understanding the Boot Sequence
(continued)
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Understanding Disk Drives
• Disk drives are made up of one or more platters
coated with magnetic material
• Disk drive components
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Geometry
Head
Tracks
Cylinders
Sectors
Capcatity = 512B X # heads X # cylinders X #
sectors
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Understanding Disk Drives (continued)
• Properties handled at the drive’s hardware or
firmware level
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Zoned bit recording (ZBR)
Track density
Areal density
Head and cylinder skew
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Exploring Microsoft File Structures
• In Microsoft file structures, sectors are grouped to
form clusters
– Storage allocation units of one or more sectors
• Clusters are typically 512, 1024, 2048, 4096, or
more bytes each
• Combining sectors minimizes the overhead of
writing or reading files to a disk
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Exploring Microsoft File Structures
(continued)
• Clusters are numbered sequentially starting at 2
– First sector of all disks contains a system area, the boot record,
and a file structure database
• OS assigns these cluster numbers, called logical
addresses
– The total numbers of possible logical addresses is FIXED
by register size and along with cluster dtermine the largest
possible partition size
• Sector numbers are called physical addresses
• Clusters and their addresses are specific to a logical
disk drive, which is a disk partition
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Disk Partitions
• A partition is a logical drive
• FAT16 does not recognize disks larger than 2 MB
– Large disks have to be partitioned
• Hidden partitions or voids
– Large unused gaps between partitions on a disk
• Partition gap
– Unused space between partitions
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Disk Partitions (continued)
• Disk editor utility can alter information in partition
table
– To hide a partition
• Can examine a partition’s physical level with a disk
editor:
– Norton DiskEdit, WinHex, or Hex Workshop
• Analyze the key hexadecimal codes the OS uses to
identify and maintain the file system
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Disk Partitions (continued)
• Hex Workshop allows you to identify file headers
– To identify file types with or without an extension
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Master Boot Record
• On Windows and DOS computer systems
– Boot disk contains a file called the Master Boot
Record (MBR)
• MBR stores information about partitions on a disk
and their locations, size, and other important items
• Several software products can modify the MBR,
such as PartitionMagic’s Boot Magic
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Examining FAT Disks
• File Allocation Table (FAT)
– File structure database that Microsoft originally
designed for floppy disks
– Used before Windows NT and 2000
• FAT database is typically written to a disk’s
outermost track and contains:
– Filenames, directory names, date and time stamps,
the starting cluster number, and file attributes
• FAT versions
– FAT12, FAT16, FAT32, and VFAT
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Examining FAT Disks (continued)
• Cluster sizes vary according to the hard disk size
and file system
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Examining FAT Disks (continued)
• Microsoft OSs allocate disk space for files by
clusters
– Results in drive slack
• Unused space in a cluster between the end of an
active file and the end of the cluster
• Drive slack includes:
– RAM slack and file slack
• An unintentional side effect of FAT16 having large
clusters was that it reduced fragmentation
– As cluster size increased
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Examining FAT Disks (continued)
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Examining FAT Disks (continued)
• When you run out of room for an allocated cluster
– OS allocates another cluster for your file, which
creates more slack space on the disk
• As files grow and require more disk space,
assigned clusters are chained together
– The chain can be broken or fragmented
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Examining FAT Disks (continued)
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Examining FAT Disks (continued)
• When the OS stores data in a FAT file system, it
assigns a starting cluster position to a file
– Data for the file is written to the first sector of the first
assigned cluster
• When this first assigned cluster is filled and runs
out of room
– FAT assigns the next available cluster to the file
• If the next available cluster isn’t contiguous to the
current cluster
– File becomes fragmented
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Deleting FAT Files
• In Microsoft OSs, when a file is deleted
– Directory entry is marked as a deleted file
• With the HEX E5 (σ) character replacing the first letter
of the filename
• FAT chain for that file is set to 0
• Data in the file remains on the disk drive
• Area of the disk where the deleted file resides
becomes unallocated disk space
– Available to receive new data from newly created
files or other files needing more space
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Examining NTFS Disks
• New Technology File System (NTFS)
– Introduced with Windows NT
– Primary file system for Windows Vista
• Improvements over FAT file systems
– NTFS provides more information about a file
– NTFS gives more control over files and folders
• NTFS was Microsoft’s move toward a journaling file
system
• http://technet.microsoft.com/en-us/library/cc781134.aspx
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Examining NTFS Disks (continued)
• In NTFS, everything written to the disk is
considered a file
• On an NTFS disk
– First data set is the Partition Boot Sector
– Next is Master File Table (MFT)
• NTFS results in much less file slack space
• Clusters are smaller for smaller disk drives
• NTFS also uses Unicode
– An international data format
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Examining NTFS Disks (continued)
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NTFS File System
• MFT contains information about all files on the disk
– Including the system files the OS uses
• In the MFT, the first 15 records are reserved for
system files
• Records in the MFT are called metadata
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NTFS File System (continued)
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NTFS File System (continued)
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MFT and File Attributes
• In the NTFS MFT
– All files and folders are stored in separate records of
1024 bytes each
• Each record contains file or folder information
– This information is divided into record fields
containing metadata
• A record field is referred to as an attribute ID
• File or folder information is typically stored in one of
two ways in an MFT record:
– Resident and nonresident
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MFT and File Attributes (continued)
• Files larger than 512 bytes are stored outside the
MFT
– MFT record provides cluster addresses where the
file is stored on the drive’s partition
• Referred to as data runs
• Each MFT record starts with a header identifying it
as a resident or nonresident attribute
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MFT and File Attributes (continued)
• When a disk is created as an NTFS file structure
– OS assigns logical clusters to the entire disk partition
• These assigned clusters are called logical cluster
numbers (LCNs)
– Become the addresses that allow the MFT to link to
nonresident files on the disk’s partition
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NTFS Data Streams
• Data streams
– Ways data can be appended to existing files
– Can obscure valuable evidentiary data, intentionally
or by coincidence
• In NTFS, a data stream becomes an additional file
attribute
– Allows the file to be associated with different
applications
• You can only tell whether a file has a data stream
attached by examining that file’s MFT entry
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NTFS Compressed Files
• NTFS provides compression similar to FAT
DriveSpace 3
• Under NTFS, files, folders, or entire volumes can
be compressed
• Most computer forensics tools can uncompress
and analyze compressed Windows data
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NTFS Encrypting File System (EFS)
• Encrypting File System (EFS)
– Introduced with Windows 2000
– Implements a public key and private key method of
encrypting files, folders, or disk volumes
• When EFS is used in Windows Vista Business
Edition or higher, XP Professional, or 2000,
– A recovery certificate is generated and sent to the
local Windows administrator account
• Users can apply EFS to files stored on their local
workstations or a remote server
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EFS Recovery Key Agent
• Recovery Key Agent implements the recovery
certificate
– Which is in the Windows administrator account
• Windows administrators can recover a key in
two ways: through Windows or from an MSDOS command prompt
• MS-DOS commands
– Cipher
– Copy
– Efsrecvr (used to decrypt EFS files)
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Deleting NTFS Files
• When a file is deleted in Windows XP, 2000, or NT
– The OS renames it and moves it to the Recycle Bin
• Can use the Del (delete) MS-DOS command
– Eliminates the file from the MFT listing in the same
way FAT does
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Understanding Whole Disk Encryption
• In recent years, there has been more concern
about loss of
– Personal identity information (PII) and trade
secrets caused by computer theft
• Of particular concern is the theft of laptop
computers and other handheld devices
• To help prevent loss of information, software
vendors now provide whole disk encryption
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Understanding Whole Disk Encryption
(continued)
• Current whole disk encryption tools offer the
following features:
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Preboot authentication
Full or partial disk encryption with secure hibernation
Advanced encryption algorithms
Key management function
A Trusted Platform Module (TPM) microchip to
generate encryption keys and authenticate logins
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Understanding Whole Disk Encryption
(continued)
• Whole disk encryption tools encrypt each sector of
a drive separately
• Many of these tools encrypt the drive’s boot sector
– To prevent any efforts to bypass the secured drive’s
partition
• To examine an encrypted drive, decrypt it first
– Run a vendor-specific program to decrypt the drive
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Examining Microsoft BitLocker
• Available only with Vista Enterprise and Ultimate
editions
• Hardware and software requirements
– A computer capable of running Windows Vista
– The TPM microchip, version 1.2 or newer
– A computer BIOS compliant with Trusted Computing
Group (TCG)
– Two NTFS partitions
– The BIOS configured so that the hard drive boots
first before checking other bootable peripherals
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Examining Third-Party Disk Encryption
Tools
• Some available third-party WDE utilities:
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PGP Whole Disk Encryption
Voltage SecureDisk
Utimaco SafeGuard Easy
Jetico BestCrypt Volume Encryption
SoftWinter Sentry 2020 for Windows XP
• Some available open-source encryption tools:
– TrueCrypt
– CrossCrypt
– FreeOTFE
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Understanding the Windows Registry
• Registry
– A database that stores hardware and software
configuration information, network connections, user
preferences, and setup information
• For investigative purposes, the Registry can
contain valuable evidence
• To view the Registry, you can use:
– Regedit (Registry Editor) program for Windows 9x
systems
– Regedt32 for Windows 2000 and XP
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Exploring the Organization of the
Windows Registry
• Registry terminology:
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Registry
Registry Editor
HKEY
Key
Subkey
Branch
Value
Default value
Hives
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Exploring the Organization of the
Windows Registry (continued)
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Exploring the Organization of the
Windows Registry (continued)
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Exploring the Organization of the
Windows Registry (continued)
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Examining the Windows Registry
• Use ProDiscover Basic to extract System.dat and
User.dat from an image file
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Examining the Windows Registry
(continued)
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Examining the Windows Registry
(continued)
• Use AccessData Registry Viewer to see what
information you can find in these files
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Examining the Windows Registry
(continued)
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Examining the Windows Registry
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Examining the Windows Registry
(continued)
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Understanding Microsoft Startup
Tasks
• Learn what files are accessed when Windows
starts
• This information helps you determine when a
suspect’s computer was last accessed
– Important with computers that might have been used
after an incident was reported
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Startup in Windows NT and Later
• All NTFS computers perform the following steps
when the computer is turned on:
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Power-on self test (POST)
Initial startup
Boot loader
Hardware detection and configuration
Kernel loading
User logon
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Startup in Windows NT and Later
(continued)
• Startup Files for Windows XP:
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NT Loader (NTLDR)
Boot.ini
BootSect.dos
NTDetect.com
NTBootdd.sys
Ntoskrnl.exe
Hal.dll
Pagefile.sys
Device drivers
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Startup in Windows NT and Later
(continued)
• Windows XP System Files
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Startup in Windows NT and Later
(continued)
• Contamination Concerns with Windows XP
– When you start a Windows XP NTFS workstation,
several files are accessed immediately
• The last access date and time stamp for the files
change to the current date and time
– Destroys any potential evidence
• That shows when a Windows XP workstation was last
used
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Startup in Windows 9x/Me
• System files in Windows 9x/Me containing valuable
information can be altered easily during startup
• Windows 9x and Windows Me have similar boot
processes
– With Windows Me you can’t boot to a true MS-DOS
mode
• Windows 9x OSs have two modes:
– DOS protected-mode interface (DPMI)
– Protected-mode GUI
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Startup in Windows 9x/Me (continued)
• The system files used by Windows 9x have their
origin in MS-DOS 6.22
– Io.sys communicates between a computer’s BIOS,
the hardware, and the OS kernel
• If F8 is pressed during startup, Io.sys loads the
Windows Startup menu
– Msdos.sys is a hidden text file containing startup
options for Windows 9x
– Command.com provides a command prompt when
booting to MS-DOS mode (DPMI)
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Startup in Windows 9x/Me (continued)
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Understanding MS-DOS Startup Tasks
• Two files are used to configure MS-DOS at startup:
– Config.sys
• A text file containing commands that typically run only
at system startup to enhance the computer’s DOS
configuration
– Autoexec.bat
• A batch file containing customized settings for MSDOS that runs automatically
• Io.sys is the first file loaded after the ROM
bootstrap loader finds the disk drive
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Understanding MS-DOS Startup Tasks
(continued)
• Msdos.sys is the second program to load into RAM
immediately after Io.sys
– It looks for the Config.sys file to configure device
drivers and other settings
• Msdos.sys then loads Command.com
• As the loading of Command.com nears completion,
Msdos.sys looks for and loads Autoexec.bat
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Other Disk Operating Systems
• Control Program for Microprocessors (CP/M)
– First nonspecific microcomputer OS
– Created by Digital Research in 1970
– 8-inch floppy drives; no support for hard drives
• Digital Research Disk Operating System (DR-DOS)
– Developed in 1988 to compete with MS-DOS
– Used FAT12 and FAT16 and had a richer command
environment
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Other Disk Operating Systems
(continued)
• Personal Computer Disk Operating System (PCDOS)
– Created by Microsoft under contract for IBM
– PC-DOS works much like MS-DOS
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Understanding Virtual Machines
• Virtual machine
– Allows you to create a representation of another
computer on an existing physical computer
• A virtual machine is just a few files on your hard
drive
– Must allocate space to it
• A virtual machine recognizes components of the
physical machine it’s loaded on
– Virtual OS is limited by the physical machine’s OS
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Understanding Virtual Machines
(continued)
• In computer forensics
– Virtual machines make it possible to restore a
suspect drive on your virtual machine
• And run nonstandard software the suspect might have
loaded
• From a network forensics standpoint, you need to
be aware of some potential issues, such as:
– A virtual machine used to attack another system or
network
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Creating a Virtual Machine
• Two popular applications for creating virtual
machines
– VMware and Microsoft Virtual PC
• Using Virtual PC
– You must download and install Virtual PC first
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Creating a Virtual Machine (continued)
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Creating a Virtual Machine (continued)
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Creating a Virtual Machine (continued)
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Creating a Virtual Machine (continued)
• You need an ISO image of an OS
– Because no OSs are provided with Virtual PC
• Virtual PC creates two files for each virtual
machine:
– A .vhd file, which is the actual virtual hard disk
– A .vmc file, which keeps track of configurations you
make to that disk
• See what type of physical machine your virtual
machine thinks it’s running
– Open the Virtual PC Console, and click Settings
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Creating a Virtual Machine (continued)
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Creating a Virtual Machine (continued)
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Summary
• When booting a suspect’s computer, using boot
media, such as forensic boot floppies or CDs, you
must ensure that disk evidence isn’t altered
• The Master Boot Record (MBR) stores information
about partitions on a disk
• Microsoft used FAT12 and FAT16 on older
operating systems
• To find a hard disk’s capacity, use the cylinders,
heads, and sectors (CHS) calculation
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Summary (continued)
• When files are deleted in a FAT file system, the
Greek letter sigma (0x05) is inserted in the first
character of the filename in the directory
• New Technology File System (NTFS) is more
versatile because it uses the Master File Table
(MFT) to track file information
• In NTFS, data streams can obscure information
that might have evidentiary value
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Summary (continued)
• Maintain a library of older operating systems and
applications
• NTFS can encrypt data with EFS and BitLocker
• NTFS can compress files, folders, or volumes
• Windows Registry keeps a record of attached
hardware, user preferences, network connections,
and installed software
• Virtual machines enable you to run other OSs from
a Windows computer
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